Patents by Inventor Gabriela A. Kulp
Gabriela A. Kulp has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Publication number: 20180339166Abstract: The invention relates generally to intradermal, transdermal, and/or transmembrane delivery of biologically active substances in the epidermis and/or through the skin, sub-dermal tissues, blood vessels and cellular membranes without causing damage to the cellular surface, tissue or membrane. The biologically active substances may have a molecular weight no less than about 5.8 kDa to about 2,500 kDa, such as Hyaluronic Acid (HA). The biologically active substances may be deposited in a dermal patch containing a red algae polysaccharide-based matrix, wherein the red algae polysaccharide is an extract of Chondrus crispus at 2% by weight of the dermal patch. The invention provides systems and methods for enhanced intradermal, transdermal, and/or transmembrane delivery of such biologically active substances using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes using those compositions and methods.Type: ApplicationFiled: February 7, 2018Publication date: November 29, 2018Applicant: PhotoKinetix Holdings, Inc.Inventors: Edward R. Kraft, Gabriela Kulp
-
Publication number: 20170080247Abstract: The invention relates generally to intradermal, transdermal, and/or transmembrane delivery of biologically active substances in the epidermis and/or through the skin, sub-dermal tissues, blood vessels and cellular membranes without causing damage to the cellular surface, tissue or membrane. The biologically active substances may have a molecular weight no less than about 5.8 kDa to about 2,500 kDa, such as Hyaluronic Acid (HA). The biologically active substances may be deposited in a dermal patch containing a red algae polysaccharide-based matrix, wherein the red algae poly-saccharide is an extract of Chondrus crispus at 2% by weight of the dermal patch. The invention provides systems and methods for enhanced intradermal, transdermal, and/or transmembrane delivery of such biologically active substances using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes using those compositions and methods.Type: ApplicationFiled: October 13, 2016Publication date: March 23, 2017Applicant: PhotoKinetix Holdings, Inc.Inventors: Edward R. Kraft, Gabriela Kulp
-
Patent number: 9474911Abstract: The invention relates generally to intradermal, transdermal, and/or transmembrane delivery of biologically active substances in the epidermis and/or through the skin, sub-dermal tissues, blood vessels and cellular membranes without causing damage to the cellular surface, tissue or membrane. The biologically active substances may have a molecular weight no less than about 5.8 kDa to about 2,500 kDa, such as Hyaluronic Acid (HA). The biologically active substances may be deposited in a dermal patch containing a red algae polysaccharide-based matrix, wherein the red algae polysaccharide is an extract of Chondrus crispus at 2% by weight of the dermal patch. The invention provides systems and methods for enhanced intradermal, transdermal, and/or transmembrane delivery of such biologically active substances using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes using those compositions and methods.Type: GrantFiled: May 20, 2011Date of Patent: October 25, 2016Assignee: PhotoKinetix Holdings Inc.Inventors: Edward R. Kraft, Gabriela Kulp
-
Publication number: 20150157715Abstract: The present invention relates generally to transscleral, transcorneal, and transocular delivery of biologically active substances through the tissues, blood vessels and cellular membranes of the eyes of patients without causing damage to the cellular surface, tissue or membrane. The invention provides compositions and methods for enhanced transscleral, transcorneal and transocular delivery of biologically active substances using pulsed incoherent light, and particularly the transcleral, transcorneal or transocular delivery of high molecular weight biologically active substances to a patient using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes of the eye of a subject using those compositions and methods.Type: ApplicationFiled: January 29, 2015Publication date: June 11, 2015Applicant: BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEMInventors: Edward R. Kraft, Gabriela A. Kulp, Bernard F. Godley, Aristides P. Koutrouvelis
-
Publication number: 20150034077Abstract: Liquid nebulizer apparatus, systems, and formulation compositions, as well as systems for the nebulized, aerosol delivery of such compositions, for the administration and insufflation of medicinal aerosols into the pulmonary system of a mammal are described. The nebulizing apparatus and system can effectively aerosolize a variety of viscosities of medicinal liquid drug carriers, including those made up of oil, water, or emulsions of oil and water. Drugs dissolved or suspended in the compositions and formulations described and adapted for use herein are not damaged or denatured by the nebulization process when the nebulizer described is used. Further, the nebulization system itself can be adapted for use with both mechanically assisted pulmonary ventilation systems as well as hand-held inhalers and nose/mouth face masks for use in pulmonary drug delivery.Type: ApplicationFiled: July 14, 2014Publication date: February 5, 2015Applicant: BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEMInventors: Edward R. KRAFT, Perenlai Enkhbaatar, Daniel S. Traber, Gabriela A. Kulp
-
Patent number: 8948863Abstract: The present invention relates generally to transscleral, transcorneal, and transocular delivery of biologically active substances through the tissues, blood vessels and cellular membranes of the eyes of patients without causing damage to the cellular surface, tissue or membrane. The invention provides compositions and methods for enhanced transscleral, transcorneal and transocular delivery of biologically active substances using pulsed incoherent light, and particularly the transcleral, transcorneal or transocular delivery of high molecular weight biologically active substances to a patient using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes of the eye of a subject using those compositions and methods.Type: GrantFiled: October 12, 2010Date of Patent: February 3, 2015Assignee: Board of Regents, The University of Texas SystemInventors: Edward R. Kraft, Gabriela A. Kulp, Bernard F. Godley, Aristides P. Koutrouvelis
-
Patent number: 8776786Abstract: Liquid nebulizer apparatus, systems, and formulation compositions, as well as systems for the nebulized, aerosol delivery of such compositions, for the administration and insufflation of medicinal aerosols into the pulmonary system of a mammal are described. The nebulizing apparatus and system can effectively aerosolize a variety of viscosities of medicinal liquid drug carriers, including those made up of oil, water, or emulsions of oil and water. Drugs dissolved or suspended in the compositions and formulations described and adapted for use herein are not damaged or denatured by the nebulization process when the nebulizer described is used. Further, the nebulization system itself can be adapted for use with both mechanically assisted pulmonary ventilation systems as well as hand-held inhalers and nose/mouth face masks for use in pulmonary drug delivery.Type: GrantFiled: March 16, 2012Date of Patent: July 15, 2014Assignee: The Regents of the University of Texas SystemInventors: Edward R Kraft, Perenlai Enkhbaatar, Daniel S Traber, Gabriela A. Kulp
-
Publication number: 20140128798Abstract: The invention relates generally to intradermal, transdermal, and/or transmembrane delivery of biologically active substances in the epidermis and/or through the skin, sub-dermal tissues, blood vessels and cellular membranes without causing damage to the cellular surface, tissue or membrane. The biologically active substances may have a molecular weight no less than about 5.8 kDa to about 2,500 kDa, such as Hyaluronic Acid (HA). The biologically active substances may be deposited in a dermal patch containing a red algae polysaccharide-based matrix, wherein the red algae polysaccharide is an extract of Chondrus crispus at 2% by weight of the dermal patch. The invention provides systems and methods for enhanced intradermal, transdermal, and/or transmembrane delivery of such biologically active substances using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes using those compositions and methods.Type: ApplicationFiled: May 20, 2011Publication date: May 8, 2014Applicants: PHOTOKINETIX HOLDINGS INC., PRINCIPIUM EUROPE S.R.L.Inventors: Julien Janson, Edward R. Kraft, Gabriela Kulp, Rosella Malanchin
-
Publication number: 20120174915Abstract: Liquid nebulizer apparatus, systems, and formulation compositions, as well as systems for the nebulized, aerosol delivery of such compositions, for the administration and insufflation of medicinal aerosols into the pulmonary system of a mammal are described. The nebulizing apparatus and system can effectively aerosolize a variety of viscosities of medicinal liquid drug carriers, including those made up of oil, water, or emulsions of oil and water. Drugs dissolved or suspended in the compositions and formulations described and adapted for use herein are not damaged or denatured by the nebulization process when the nebulizer described is used. Further, the nebulization system itself can be adapted for use with both mechanically assisted pulmonary ventilation systems as well as hand-held inhalers and nose/mouth face masks for use in pulmonary drug delivery.Type: ApplicationFiled: March 16, 2012Publication date: July 12, 2012Applicant: BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEMInventors: Edward R. Kraft, Perenlai Enkhbaatar, Daniel L. Traber, Gabriela A. Kulp
-
Publication number: 20110125076Abstract: The present invention relates generally to transscleral, transcorneal, and transocular delivery of biologically active substances through the tissues, blood vessels and cellular membranes of the eyes of patients without causing damage to the cellular surface, tissue or membrane. The invention provides compositions and methods for enhanced transscleral, transcorneal and transocular delivery of biologically active substances using pulsed incoherent light, and particularly the transcleral, transcorneal or transocular delivery of high molecular weight biologically active substances to a patient using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes of the eye of a subject using those compositions and methods.Type: ApplicationFiled: October 12, 2010Publication date: May 26, 2011Applicant: BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEMInventors: Edward R. Kraft, Gabriela A. Kulp, Bernard F. Godley, Aristides P. Koutrouvelis
-
Patent number: 7854753Abstract: The invention relates generally to transdermal and transmembrane delivery of biologically active substances through the skin, sub-dermal tissues, blood vessels and cellular membranes without causing damage to the cellular surface, tissue or membrane. The invention provides compositions and methods for enhanced transdermal and transmembrane delivery of biologically active substances using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes using those compositions and methods.Type: GrantFiled: June 30, 2008Date of Patent: December 21, 2010Assignee: Photokinetix, Inc.Inventors: Edward R. Kraft, Gabriela Kulp
-
Publication number: 20090156463Abstract: The invention relates generally to transdermal and transmembrane delivery of biologically active substances through the skin, sub-dermal tissues, blood vessels and cellular membranes without causing damage to the cellular surface, tissue or membrane. The invention provides compositions and methods for enhanced transdermal and transmembrane delivery of biologically active substances using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes using those compositions and methods.Type: ApplicationFiled: June 30, 2008Publication date: June 18, 2009Applicant: PHOTOKINETIX, INC.Inventors: Edward R. Kraft, Gabriela Kulp
-
Patent number: 7458982Abstract: The invention relates generally to transdermal and transmembrane delivery of biologically active substances through the skin, sub-dermal tissues, blood vessels and cellular membranes without causing damage to the cellular surface, tissue or membrane. The invention provides compositions and methods for enhanced transdermal and transmembrane delivery of biologically active substances using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes using those compositions and methods.Type: GrantFiled: October 3, 2003Date of Patent: December 2, 2008Assignee: Photokinetix, Inc.Inventors: Edward R. Kraft, Gabriela Kulp
-
Publication number: 20080230053Abstract: Liquid nebulizer apparatus, systems, and formulation compositions, as well as systems for the nebulized, aerosol delivery of such compositions, for the administration and insufflation of medicinal aerosols into the pulmonary system of a mammal are described. The nebulizing apparatus and system can effectively aerosolize a variety of viscosities of medicinal liquid drug carriers, including those made up of oil, water, or emulsions of oil and water. Drugs dissolved or suspended in the compositions and formulations described and adapted for use herein are not damages or denatured by the nebulization process when the nebulizer described is used. Further, the nebulization system itself can be adapted for use with both mechanically assisted pulmonary ventilation systems as well as hand-held inhalers and nose/mouth face masks for use in pulmonary drug delivery.Type: ApplicationFiled: September 14, 2007Publication date: September 25, 2008Applicant: BOARD OF REGENTS, THE UNIVERSITY OF TEXAS SYSTEMInventors: Edward R. Kraft, Perenlei Enkhbaatar, Daniel L. Traber, Gabriela A. Kulp
-
Publication number: 20040131687Abstract: The invention relates generally to transdermal and transmembrane delivery of biologically active substances through the skin, sub-dermal tissues, blood vessels and cellular membranes without causing damage to the cellular surface, tissue or membrane. The invention provides compositions and methods for enhanced transdermal and transmembrane delivery of biologically active substances using pulsed incoherent light. The invention further provides a device for the application of the pulsed incoherent light to cellular surfaces and membranes using those compositions and methods.Type: ApplicationFiled: October 3, 2003Publication date: July 8, 2004Inventors: Edward R. Kraft, Gabriela Kulp